Turbine rotor for a thermal electric power station
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01D-005/30
F01D-005/32
출원번호
US-0847163
(2013-03-19)
등록번호
US-9470100
(2016-10-18)
우선권정보
FR-12 52457 (2012-03-19)
발명자
/ 주소
Berquier, Christophe
Batot, Andre
출원인 / 주소
General Electric Technology GmbH
대리인 / 주소
GE Global Patent Operation
인용정보
피인용 횟수 :
0인용 특허 :
5
초록▼
The technical field of the invention is that of turbine rotors for a thermal electric power station and the subject of the invention is, more particularly, a rotor of a turbine for a thermal electric power station, said rotor comprising a plurality of blades, each comprising at least one root and a
The technical field of the invention is that of turbine rotors for a thermal electric power station and the subject of the invention is, more particularly, a rotor of a turbine for a thermal electric power station, said rotor comprising a plurality of blades, each comprising at least one root and a vane; and at least one rotor disk secured to a shaft able to be in rotation about a reference axis, the rotor disk comprising on its periphery outgrowths in which to fit the blades, so that the vanes of the blades are arranged radially with respect to the reference axis; said rotor being one wherein: the rotor disk comprises a groove opening axially and having a lower face and an upper face, the lower face of the groove of the rotor disk being situated on the periphery of said rotor disk and the upper face of the groove of the rotor disk being situated on the outgrowths and facing the lower face; each of the blades comprises, at its root, a lateral projection directed axially, said lateral projection having, in its lower part, a groove portion having an upper face situated in the continuation of the upper face of the groove of the rotor disk; at least one locking means for locking the blades is positioned in the groove of the rotor disk.
대표청구항▼
1. A rotor of a turbine for a thermal electric power station, said rotor comprising: a plurality of blades, each blade comprising at least one root and a vane; andat least one rotor disk secured to a shaft operable for rotation about a reference axis, the rotor disk comprising on a periphery of the
1. A rotor of a turbine for a thermal electric power station, said rotor comprising: a plurality of blades, each blade comprising at least one root and a vane; andat least one rotor disk secured to a shaft operable for rotation about a reference axis, the rotor disk comprising on a periphery of the rotor disk outgrowths in which to fit the blades, so that the vanes of the blades are arranged radially with respect to the reference axis;said rotor being one wherein:the rotor disk comprises a groove with an axial opening and having a groove lower face and a groove upper face, the groove lower face arranged on the periphery of said rotor disk and the groove upper face arranged on the outgrowths of the rotor disk opposite the groove lower face;each of the blades comprises, from the root of the blade, a lateral projection directed axially beyond the vane of the blade, said lateral projection comprising a lower part and a groove portion having a blade upper face for continuation of the groove upper face when the blades are arranged within the outgrowths of the rotor disk, wherein said lateral projection offsets the groove portion such that the groove portion is not placed beneath the root of the blade; andat least one lock positioned through the axial opening in the groove of the rotor disk for locking the blades within the outgrowths of the rotor disk. 2. The rotor as claimed in claim 1, wherein the rotor disk has an inside positioned at an air intake of the turbine and an outside positioned at an air outlet from the turbine, the lateral projection arranged on the outside. 3. The rotor as claimed in claim 1, wherein the groove of the rotor disk defines a cavity and an opening zone, with the opening zone at the axial opening, and the cavity having a radial width greater than a radial width of the opening zone. 4. The rotor as claimed in claim 3, wherein the at least one lock comprises: at least one lower profile sized to fit into the groove of the rotor disk, in contact with the groove lower face; andat least one upper profile sized to fit into the groove of the rotor disk in contact with the groove upper faces and into the groove portions of the blades, in contact with the blade upper faces. 5. The rotor as claimed in claim 1, wherein the at least one lock comprises: at least one lower profile for fit in the groove of the rotor disk, in contact with the groove lower face; andat least one upper profile for fit in the groove of the rotor disk and into the groove portions of the blades, in contact with the groove upper faces of said groove of the rotor disk and in contact with the blade upper faces of said groove portions of said blades, respectively. 6. The rotor as claimed in claim 5, wherein the at least one lower profile and the at least one upper profile comprise at least one intermediate closure piece, for pressure of the at least one intermediate closure piece on the at least one lower profile against the groove lower face, and the at least one upper profile against the groove upper faces of the groove and the blade upper faces of the groove portions. 7. A method for assembling a rotor of a turbine for a thermal electric power station, as claimed in claim 6, said method comprising: fitting the blades between the outgrowths;fitting through the axial opening the at least one lower profile and the at least one upper profile in the groove of the rotor disk and in the groove portion of the blade; andfitting through the axial opening the intermediate closure piece for pressure on the at least one lower profile against the groove lower face and the at least one upper profile against the groove upper faces and against the blade upper faces. 8. The rotor as claimed in claim 6, further comprising: one of the groove upper faces borne by an outgrowth; andan opening of one of the channels with each channels delimited by two of the outgrowths of the rotor disk extending along the reference axis;together the one of the groove upper faces and the opening defining at least one groove spacing for the groove, and wherein said groove spacing is substantially circular and the lower profile and the upper profile form an arc of a circle extending over at least one groove spacing of said groove,wherein the lower profile and the upper profile comprise at least one intermediate closure piece for pressure on the lower profile against the groove lower face and the upper profile against the upper faces and blade upper faces. 9. The rotor as claimed in claim 1, wherein the outgrowths of the rotor disk define channels extending along the reference axis, each channel shaped to correspond with and be receptive of the roots of the blades for sliding connection of the root within the channels. 10. The rotor as claimed in claim 9, wherein the groove defines a cavity, an opening zone, and the axial opening via which the groove opens axially, the cavity having a radial width greater than a radial width of the opening zone. 11. The rotor as claimed in claim 9, wherein the at least one lock comprises: at least one lower profile sized for fit into the groove of the rotor disk, in contact with the groove lower face; andat least one upper profile sized for fit into the groove of the rotor disk in contact with the groove upper faces, and into the groove portions of the blades in contact with the blade upper faces. 12. The rotor as claimed in claim 9, further comprising: one of the groove upper faces borne by an outgrowth;an opening of one of the channels delimited by two of the outgrowths of the rotor disk extending along the reference axis; andthe one of the groove upper faces and the opening together define at least one groove spacing for the groove;wherein said groove spacing is substantially circular with at least one lower profile and at least one upper profile of the at least one lock together forming an arc of a circle extending over at least one groove spacing of said groove; andwherein:the at least one lower profile of the at least one lock is fitted into the groove of the rotor disk in contact with the groove lower face; andthe at least one upper profile of the at least one lock is fitted into the groove of the rotor disk in contact with the groove upper face and fitted into the groove portions of the blades in contact with the blade upper faces. 13. A method for assembling a rotor of a turbine for a thermal electric power station, as claimed in claim 12, said method comprising: fitting the blades between the outgrowths;fitting through the axial opening the at least one lower profile and the at least one upper profile in the groove space of the groove of the rotor disk and in the groove portion of the blades; andfitting through the axial opening the intermediate closure piece for pressure on the at least one lower profile against the groove lower face and for pressure on the at least one upper profile against the groove upper faces and blade upper faces.
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